Ground Search Metal Detector Assembly
A ground search metal detector with a pivotally mounted search coil that locates a stem connector at either of a storage position or an operational position. The operational position locates the connector adjacent to the central portion of the search coil to facilitate useful operational characteristics, and the storage position locates the connector adjacent to the perimeter edge to facilitate compact storage of the metal detector by pivoting the stem to overlap the search coil.
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The present invention relates to metal detectors. More particularly, the present invention relates to ground search metal detectors that employ a swivel-mounted search coil and stem.
Description of the Related ArtMetal detectors are available in a range on configurations including walk-through metal detectors, handheld metal detectors, and ground search metal detectors. Ground search metal detectors are commonly utilized in hobby, commercial, government, and tactical applications. A ground search metal detector is commonly configured with a control assembly coupled to a stem, which is then coupled to a search coil. The control assembly includes the detection circuitry, displays, user actuators, battery, and interface connectors. The stem typically has a suitable length to enable the search coil to be swept adjacent to the ground while the user stands or walks, holding the stem and/or the control assembly. It is common to include a handgrip portion and an arm cuff portion that facilitate comfortable carrying and operation of the metal detector.
During operation of a ground search metal detector, the length of the stem must enable the search coil to reach the ground while the user stands comfortably. Of course, since users vary in height, and since the ground surface and search conditions vary as well, it is common to employ a stem that is adjustable in length. At any rate, in the extended position, the stem is rather long to accommodate a wide range of user physiology and search conditions. When the metal detector is not in use, and while it is packaged for storage and transportation, it is desirable to configure the components in the smallest reasonable proportions. The smallest storage configuration may require some disassembly of the metal detector, as is often seen in the case of commercial products as received new from the factory. The user may be required to assemble the newly received product. Although, users prefer that assembly is not required each time they elect to use the product.
Another feature found in ground search metal detectors is the use of a swiveled connection between the stem and the search coil. This allows the user to adjust the angle between the stem and a generally planar search coil to accommodate the geometry between the user's holding position, the stem angle, and the search coil angle with respect to the ground surface.
The location of the swivel connection between the stem and the search coil affects the operation and storage considerations discussed above. During operation it is desirable to have the stem connect to the search coil in a central location within the generally planar search coil, so that the forces on the coil are somewhat balanced, and also to facilitate the user's adjustment of the swivel angle by simply pressing the front or rear edge of the coil to the ground On the other hand, during storage of the search coil and stem combination, it is desirable to locate the swivel connection adjacent to the perimeter edge of the search coil, so as to enable the stem to fold over and overlap the entire longitudinal length of the search coil, and thereby present a smaller storage configuration. Considering the competing demands of operational configurations, storage configurations, as well as the user's desire for simple deployment, operation, and storage of the metal detector, it can be appreciated that there is a need in the art of the improved ground search metal detector assembly.
SUMMARY OF THE INVENTIONThe need in the art is addressed by the apparatus of the present invention. The present disclosure teaches a metal detector that includes a stem with a connector located at a distal end thereof, and a search coil that has a generally planar configuration, which defines a perimeter edge and a central portion located away from the perimeter edge. A mount is disposed between the search coil and the connector, which pivotally engages and selectively locates the connector at either a storage position or an operational position. The operational position is located adjacent to the central portion, thereby facilitating balanced distribution of forces applied to the search coil with respect to the stem, and the storage position locates the connector adjacent to the perimeter edge to facilitate compact storage of the metal detector by pivoting the stem to overlap the search coil.
In a specific embodiment of the foregoing apparatus, the stem is collapsible, which reduces overall size of the metal detector for storage. In another embodiment, the stem is telescopic.
In a specific embodiment of the foregoing apparatus, the mount is an integral fixture of the search coil. In another embodiment, the mount removably engages the search coil.
In a specific embodiment, the foregoing apparatus further includes a brake disposed between the mount and the connector, thereby enabling selective control of the degree of force required to pivot the stem with respect to the search coil. In another specific embodiment, the apparatus further includes a latch disposed between the mount and the connector, and arranged to fixedly retain the connector at either the operational position or the storage position.
In a specific embodiment, the foregoing apparatus further includes a control cable extending from a control assembly to the search coil, and the control cable is routed along the stem and the mount to accommodate transitions between the operational position to the storage position. In a refinement to this embodiment, the cable is disposed within the stem. In another refinement, the cable is wrapped about the exterior of the stem.
In a specific embodiment of the foregoing apparatus, the mount is a clevis mount and the connector is a clevis knuckle. In another specific embodiment, the mount is a clevis mount and the connector is a clevis knuckle, where the clevis mount has a slot opening to engage a clevis pin passing through the clevis knuckle, and the slot opening ends define the operational position and the storage position. In a refinement to this embodiment, the mount further includes a recess formed about the slot opening that is aligned to retain the clevis knuckle in either the operational position or the storage position.
In a specific embodiment of the foregoing apparatus, the mount is rotatably coupled to the search coil about an axis of rotation, and rotation of the mount with respect to the search coil transitions the connector between the operational position and the storage position. In a refinement to this, the embodiment further includes a latch disposed to fixedly locate the mount at either the operational position or the storage position. In another refinement to this embodiment, the axis of rotation is oriented parallel to the substantially planar search coil. In another refinement to this embodiment, the axis of rotation is oriented perpendicular to the substantially planar search coil.
The present disclosure teaches a metal detector that includes a control assembly coupled to a stem that has a connector located at a distal end thereof, and a search coil with a generally planar configuration that defines a perimeter edge and a longitudinal axis. A mount is disposed between the search coil and the connector, and pivotally engages and selectively locates the connector at a first position or a second position. The first position locates the connector adjacent to the perimeter edge to facilitate compact storage of the metal detector by pivoting the stem to overlap substantially the entire length of the search coil longitudinal axis. The second position locates the connector proximate to the center of the search coil longitudinal axis.
In a specific embodiment of the foregoing apparatus, the mount removably engages the search coil. In another specific embodiment, the metal detector further includes a brake disposed between the mount and the connector, thereby enabling selective control of the degree of force required to pivot the connector with respect to the search coil.
In a specific embodiment, the foregoing apparatus further includes a latch disposed between the mount and the search coil, and arranged to fixedly retain the connector at either the first position or the second position.
In a specific embodiment of the foregoing apparatus, the mount is a clevis mount and the connector is a clevis knuckle. In another specific embodiment, the mount is a clevis mount and the connector is a clevis knuckle, and, the clevis mount has a slot opening to engage a clevis pin passing through the clevis knuckle, such that the slot opening ends define the first position and the second position. In a refinement to this embodiment, the mount further includes a recess formed about the slot opening and aligned to retain the clevis knuckle in either the first position or the second position.
In a specific embodiment of the foregoing apparatus, the mount is rotatably coupled to the search coil about an axis of rotation, where rotation of the mount with respect to the search coil transitions the connector between the first position and the second position. In a refinement to this embodiment, a latch is disposed to fixedly locate the rotatably coupled mount at either the first position or the second position. In another refinement, the axis of rotation is oriented parallel to the substantially planar search coil. In another refinement, the axis of rotation is oriented perpendicular to the substantially planar search coil.
Illustrative embodiments and exemplary applications will now be described with reference to the accompanying drawings to disclose the advantageous teachings of the present invention.
While the present invention is described herein with reference to illustrative embodiments for particular applications, it should be understood that the invention is not limited thereto. Those having ordinary skill in the art and access to the teachings provided herein will recognize additional modifications, applications, and embodiments within the scope hereof and additional fields in which the present invention would be of significant utility.
In considering the detailed embodiments of the present invention, it will be observed that the present invention resides primarily in combinations of steps to accomplish various methods or components to form various apparatus. Accordingly, the apparatus components and method steps have been represented where appropriate by conventional symbols in the drawings, showing only those specific details that are pertinent to understanding the present invention so as not to obscure the disclosure with details that will be readily apparent to those of ordinary skill in the art having the benefit of the disclosures contained herein.
In this disclosure, relational terms such as first and second, top and bottom, upper and lower, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. The terms “comprises,” “comprising,” or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. An element proceeded by “comprises a” does not, without more constraints, preclude the existence of additional identical elements in the process, method, article, or apparatus that comprises the element.
Ground search metal detectors generally include a control assembly, a stem, and a search coil. It is known to utilize stems that are fixed in length, as well as stems that are adjustable in length. Adjustable length stems may comprise telescopic tubular sections, or may be collapsible through some other mechanism. The search coil is coupled to a distal end of the stem, typically with a pivoting connection so that the angular relationship between the stem and a longitudinal axis of the search coil can be adjusted.
The search coil is an assembly that comprises an electromagnetic coil and a protective housing. In addition, the search coil may include a cable connection and a mechanical member adapted to engage the distal end of the stem. There are various types of electromagnetic coils disposed within search coils, including single and plural coil configurations. The electromagnetic coils may be concentric, overlap, or offset from one another. The shape of the electromagnetic coils may be round, oval, or irregular in shape. Although, the vast majority of search coils are generally planar in configuration, so that coil can be placed directly adjacent to flat ground. The search coil housing encloses the electromagnetic coil to support and protect it. Thus, the search coil housing is also generally planar in configuration, and also sized to enclose the electromagnetic coil, without unduly increasing size or bulk of the search coil assembly. A longitudinal axis of the search coil aligns with the central axis of the stem, where the axis of pivot between the stem and the search coil is perpendicular to these axes.
As was discussed hereinbefore, the location of the pivoting connection between the stem and the search coil is matter of design choice with significant trade-offs. These trade-offs generally affect operational use of the metal detector and storage or transportation aspects of the unit. The present disclosure teaches a novel mount arrangement whereby certain undesirable aspects of these trade-offs are mitigated. The present disclosure teaches a mount design that provides at least two positions where the stem has a pivoting attachment to the search coil. A first one of these positions, located toward the rear of the search coil, (i.e. the end of the search coil normally closest to the operator), places that connection adjacent to the perimeter edge of the search coil. This arrangement allows the full length of the search coil to fold back onto the stem, to thereby achieve near minimal dimensions for storage and transport.
A second mount position is located in the central area of the search coil (i.e. along the longitudinal axis of the search coil away from the perimeter edge, and optimally at the center of the longitudinal axis) to thereby provide more efficient operational characteristics of the search coil due to its non-rear mounted position. Rear mounted coils are beneficial for equipment collapsibility, but have operational disadvantages, such as awkward pivot angle adjustment using the operator's foot, hand, or a shovel. Also, the search coil is supported in a cantilever arrangement that places higher stress on the pivot brake, so the search coil tends droop over time due to coil's center of gravity being substantially forward of pivot point. In contrast, the more central-mounted position provides excellent operational features, including simple and efficient pivoting of the search coil angle by simply pressing the tip or the tail of the search coil to the ground. The central area mount is also closer to the search coil center of gravity, thereby reducing the stress and torque on the pivot braking system, as well as reducing or even eliminating search coil droop.
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Thus, the present invention has been described herein with reference to a particular embodiment for a particular application. Those having ordinary skill in the art and access to the present teachings will recognize additional modifications, applications and embodiments within the scope thereof.
It is therefore intended by the appended claims to cover any and all such applications, modifications and embodiments within the scope of the present invention.
Claims
1. A metal detector apparatus, comprising:
- a stem having a connector located at a distal end thereof;
- a search coil having a generally planar configuration that defines a perimeter edge, and with a central portion located away from said perimeter edge;
- a mount, disposed between said search coil and said connector, that pivotally engages and selectively locates said connector at a storage position or an operational position, and wherein
- said operational position is located adjacent to said central portion, thereby facilitating balanced distribution of forces applied to said search coil with respect to said stem, and wherein
- said storage position locates said connector adjacent to said perimeter edge to facilitate compact storage of the metal detector by pivoting said stem to overlap said search coil.
2. The apparatus of claim 1, and wherein:
- said stem is collapsible, thereby reducing the overall size of the metal detector for storage.
3. The apparatus of claim 1, and wherein:
- said stem is telescopic.
4. The apparatus of claim 1, and wherein:
- said mount is an integral fixture of said search coil.
5. The apparatus of claim 1, and wherein:
- said mount removably engages said search coil.
6. The apparatus of claim 1, and further comprising:
- a brake disposed between said mount and said connector, thereby enabling selective control of the degree to force required to pivot said connector with respect to said search coil.
7. The apparatus of claim 1, and further comprising:
- a latch disposed between said mount and said connector, and arranged to fixedly retain said connector at either of said operational position or said storage position.
8. The apparatus of claim 1, and further comprising:
- a control cable extending to said search coil, and wherein
- said control cable is routed along said stem and said mount to accommodate transitions between said operational position to said storage position.
9. The apparatus of claim 8, and wherein:
- said cable is disposed within said stem.
10. The apparatus of claim 8, and wherein:
- said cable is wrapped about the exterior of said stem.
11. The apparatus of claim 1, and wherein:
- said mount is a clevis mount and said connector is a clevis knuckle.
12. The apparatus of claim 1, and wherein:
- said mount is a clevis mount and said connector is a clevis knuckle, said clevis mount having a slot opening to engage a clevis pin passing through said clevis knuckle, and wherein said slot opening ends define said operational position and said storage position.
13. The apparatus of claim 12, and wherein:
- said mount further includes a recess formed about said slot opening and aligned to retain said clevis knuckle in either of said operational position or said storage position.
14. The apparatus of claim 1, and wherein:
- said mount is rotatably coupled to said search coil about an axis of rotation, and wherein rotation of said mount with respect to said search coil transitions said connector between said operational position and said storage position.
15. The apparatus of claim 14, and further comprising:
- a latch disposed to fixedly locate said rotatably coupled mount at either of said operational position or said storage position.
16. The apparatus of claim 14, and wherein:
- said axis of rotation is oriented parallel to said substantially planar search coil.
17. The apparatus of claim 14, and wherein:
- said axis of rotation is oriented perpendicular to said substantially planar search coil.
18. A metal detector apparatus, comprising:
- a stem having a connector located at a distal end thereof;
- a search coil having a generally planar configuration that defines a perimeter edge and a longitudinal axis;
- a mount, disposed between said search coil and said connector, that pivotally engages and selectively locates said connector at a first position or a second position, and wherein
- said first position locates said connector adjacent to said perimeter edge to facilitate compact storage of the metal detector by pivoting said stem to overlap substantially the entire length of said search coil longitudinal axis, and
- said second position locates said connector proximate to the center of said search coil longitudinal axis.
19. The apparatus of claim 18, and wherein:
- said mount removably engages said search coil.
20. The apparatus of claim 18, and further comprising:
- a brake disposed between said mount and said connector, thereby enabling selective control of the degree to force required to pivot said connector with respect to said search coil.
21. The apparatus of claim 18, and further comprising:
- a latch disposed between said mount and said search coil, and arranged to fixedly retain said connector at either of said first position or said second position.
22. The apparatus of claim 18, and wherein:
- said mount is a clevis mount and said connector is a clevis knuckle.
23. The apparatus of claim 18, and wherein:
- said mount is a clevis mount and said connector is a clevis knuckle, said clevis mount having a slot opening to engage a clevis pin passing through said clevis knuckle, and wherein said slot opening ends define said first position and said second position.
24. The apparatus of claim 23, and wherein:
- said mount further includes a recess formed about said slot opening and aligned to retain said clevis knuckle in either of said first position or said second position.
25. The apparatus of claim 18, and wherein:
- said mount is rotatably coupled to said search coil about an axis of rotation, and wherein rotation of said mount with respect to said search coil transitions said connector between said first position and said second position.
26. The apparatus of claim 25, and further comprising:
- a latch disposed to fixedly locate said rotatably coupled mount at either of said first position or said second position.
27. The apparatus of claim 25, and wherein:
- said axis of rotation is oriented parallel to said substantially planar search coil.
28. The apparatus of claim 25, and wherein:
- said axis of rotation is oriented perpendicular to said substantially planar search coil.
Type: Application
Filed: Apr 19, 2016
Publication Date: Oct 19, 2017
Patent Grant number: 9851466
Applicant: Garrett Electronics, Inc. (Garland, TX)
Inventors: Brent C. Weaver (Heath, TX), Anthony H. Tran (Plano, TX)
Application Number: 15/132,806